DE102008005078B3 - Current bridge used in vehicle construction comprises contacts connected to a distribution crosspiece and lying in a plane which is different from the plane of the crosspiece - Google Patents

Abstract

Current bridge comprises contacts connected to a distribution crosspiece (18) and lying in a plane which is different from the plane of the crosspiece. An independent claim is also included for a method for the production of a current bridge. Preferred Features: The contacts comprise single spring contacts each having a stop side and a spring side and connected to the facing side (22) of the distribution crosspiece. The current bridge has a geometry which can be brought back onto the planar punched part of a metal sheet.

Description

FIELD OF THE INVENTION

The The invention relates to a current bridge sheet metal, comprising a first plurality of single spring contacts each with a stop leg and a spring leg and a second plurality of contacts.

STATE OF THE ART

Electricity bridges will be used in various technical fields to use of single spring contacts quickly and safely with the help of suitable, with the single spring contacts cooperating components an electrical Connect and disconnect again. Electricity bridges will be For example, in the automotive industry in facilities for receiving the Vehicle fuses used. For this purpose, the current bridges in a housing, plugged into the fuse and in conductive contact with the power bridges be introduced and locked in it.

Not only in vehicle construction, but in all industries will one increasing miniaturization of all Components required. This also applies to power bridges, which in their dimensions be adjusted so that the distance arranged side by side Single spring contacts on the distance of the corresponding mounting geometry the fuses is tuned. In the art often become so called Form F fuses or Form C fuses used, whose geometry is a distance between the individual single spring contacts of 6.5 mm for a mini-fuse and 7 mm for a form C-fuse needed do. Has any miniaturization of the current bridges However, problems in terms of cost-effective production, sufficient Heat conduction, as well as a careful use of materials.

In the prior art, current bridges are made with slightly spaced individual spring contacts in different ways. For example, the current bridge comprises the DE 203 15 160 U1 Single spring contacts, each having a stop leg and a spring leg, which are integrally connected to a manifold. For this purpose, first a blank is punched out of a flat metal sheet, which is then deformed into the desired geometry. Except for slight bending of the contact legs and a rotation of the spring legs, the individual spring contacts remain substantially in the plane of the distributor bar. The space utilization is determined by the single spring contact width and the distance between adjacent individual spring contacts along one side of the distributor bar. The connection structure is two-dimensional.

The DE 10 2004 011 490 A1 describes a current bridge with a metal sheet, which has a zig-zag course. On one side of the metal sheet single spring contacts are provided, each with a stop leg and a spring leg. Other power bridges with spring contacts are from the DE 199 05 717 A1 , of the DE 199 29 928 A1 as well as the DE 10 2004 053 577 A1 known.

PRESENTATION OF THE INVENTION

Of the Invention is the object of a current bridge with To provide single spring contacts, the improved space utilization allows.

These Task is through a current bridge with the features of claim 1 and a method according to claim 14 solved. Advantageous embodiments follow from the respective subclaims.

After that includes a current bridge the present invention, a manifold, the first End face and a second end face, and a first plurality Of single spring contacts, each with a stop leg and a spring leg, the one-piece are connected to the first end side of the distributor bar, wherein the first single spring contacts essentially in the plane of the Distribution boards lie. The current bridge is characterized that it further comprises a second plurality of contacts, the connected to the manifold and arranged in a plane which differs from the level of the first single spring contacts, for a higher packing density or to reduce installation space, for example in the case of fuses, which are to be connected to the contacts. This can further various types of backup, for example, Form F and Form C fuses, at the same or increased packing density, spatial be grouped and connected by only one power bridge. simultaneously is the manufacturing cost of the current bridge and the use of materials only slightly increased. By training more contacts who are not in the plane the first single spring contacts are, the connection structure three-dimensional.

The Formulations "the first plurality of single spring contacts "and" the first single spring contacts "are used synonymously. The same applies to the second plurality of contacts.

Preferably, the second contacts are one Zelfederkontakte each with a stop leg and a spring leg, which are integrally connected to the second end face of the manifold to unify the contact structure of the current bridge.

Preferably are the second single spring contacts with the first plurality facing away from single spring contacts the second end face of the distributor bar one piece connected to a contact plate, the U-shaped in the direction of the first single spring contacts is bent, with the first single spring contacts in one plane lie parallel to the plane of the second single spring contacts. By itself Both the first single spring contacts and the second single spring contacts extend in the same direction, the insertion simplifies or installing the current bridge.

Preferably the first plurality of individual spring contacts 13 comprises single spring contacts and the second plurality of individual spring contacts 3 single spring contacts. Here you can the 13 first contacts of the 16-pin current bridge form f-fuses and with little or no increased installation space additionally 3 Form C fuses are assigned.

Preferably are several first juxtaposed single spring contacts at a distance of 6 mm to 7 mm, preferably about 6.5 mm, arranged on the manifold. The distance is the interval two adjacent contacts, d. H. the distance that in the figures marked with "A". A miniaturization on this area ensures a sufficient Heat conduction. If the cross-sectional width is too small, the heat flow density increases above Tolerable level of.

Preferably exists the current bridge of a metal sheet of a copper-zinc alloy, preferably an elevated one temper has. As elevated temper comes into question with the degree of hardness designated F44 according to DIN 17670. Alternatively or additionally Can this be made of a copper-zinc alloy existing metal sheet partially with a surface layer be made of tin. About that In addition, the surface coating has off Tin advantages in terms of handling, because when attaching a Cable, for example, on a crimping approach, as well as when plugging the risk of contact corrosion is reduced. Preferably For example, the metal sheet is a low alloy copper alloy such as CuSn0,1P and CuFe2P (designation as DIN ISO symbol).

Preferably owns the power bridge a geometry based on a flat punched metal sheet can be attributed to the production of the electricity bridge to simplify and keep the material requirements low.

Preferably consist in the flat punched part slots between juxtaposed Single spring contacts whose width is essentially the strength of the Metal sheet corresponds. In this way, the contacts can be arrange very close to each other, whereby at the same time the punched out Waste material is minimized.

Preferably are the stop leg and the outgoing from the stop leg Spring legs of the individual spring contacts in each case in one piece with each other connected, wherein the metal sheet between the stop leg and the spring leg has a bend of substantially 90 °. On that way Contact with a spring is easy to make.

Preferably are the stop leg and the spring leg of the single spring contacts each arranged so relative to each other that the main surfaces of the Stop leg and spring legs are substantially perpendicular to each other. Although the plates of the stop legs and spring legs after the Bending and / or further bends are not exactly in a plane form the main extension direction of a first single spring contact (longitudinal direction) and the arrangement direction of the first single spring contacts (direction along the first end face) a plane in which the first single spring contacts essentially lie. Likewise, the second single spring contacts are even after bending in their final positions essentially in one Level.

Preferably have stop leg in the longitudinal direction essentially perpendicular to the first end face of the distributor bar a plurality of bends, the different stages in the longitudinal direction generate the stop leg to a contact accuracy of the contacts to increase.

Preferably includes the current bridge Fastening means for fixing the current bridge in a housing. The casing for receiving at least one current bridge according to the invention is preferably made Plastic to as an insulator between the individual current bridges too serve, and preferably has a support member in which a secondary connector can be fixed, as well as a cover element, by means of suitable fastening devices on the secondary connector attachable.

Preferably, the current bridge further comprises connection means for connecting the bus bar to a line. After a preferred According to an embodiment of the invention, the current bridge further comprises a crimping projection which extends from the second end face of the distributor bar, is formed integrally with the distributor bar and is designed so that lines with a line cross section between 4 mm ² and 10 mm ^{2 can be} fixed. A single current bridge is thus variable enough to be used in conjunction with lines of different cross section.

• – Stanzen eines Strombrückenrohlings aus einem Metallblech, auf den sich die fertige Strombrücke zurückführen lässt,
• – Biegen der zweiten Einzelfederkontakte, so dass sie eine Ebene bilden, die sich von der Ebene des Verteilerbalkens unterscheidet. Das Verfahren ist einfach und mit herkömmlichen Mitteln und Fertigungsvorrichtungen durchführbar. Ferner wird die Fertigungsdauer nicht oder nur wenig durch die zusätzlichen Biegeschritte erhöht.

The object is further achieved by a method for producing a current bridge according to one of the preceding claims, comprising the steps:

• Punching a current bridge blank from a metal sheet, on which the finished current bridge can be returned,
• Bending the second single spring contacts to form a plane different from the plane of the distributor bar. The method is simple and feasible with conventional means and manufacturing devices. Furthermore, the production time is not or only slightly increased by the additional bending steps.

• – Biegen der Federschenkel, so dass der Anschlagschenkel und der Federschenkel der Einzelfederkontakte jeweils so relativ zueinander angeordnet sind, dass die Hauptflächen der Anschlagschenkel und Federschenkel im Wesentlichen senkrecht aufeinander stehen.

Preferably, the method further comprises the step of

• - Bending the spring legs, so that the stop leg and the spring leg of the single spring contacts are each arranged so relative to each other that the main surfaces of the stop legs and spring legs are substantially perpendicular to each other.

BRIEF DESCRIPTION OF THE FIGURES

In In the following figures, the invention is based on examples an embodiment shown. In detail show:

1A a current bridge according to the invention in plan view with 13 first single spring contacts and 3 second single spring contacts;

1B in the 1A illustrated current bridge in side view;

2A in the 1A and 1B shown current bridge in perspective view obliquely from the front;

2 B in the 1A to 2A illustrated current bridge in perspective view obliquely from behind;

3 a stamped sheet (blank) from above to form a current bridge, which in the 1A to 2 B is shown.

WAYS TO PERFORM THE INVENTION

1A shows in plan view a current bridge according to the invention, which consists of a copper-zinc alloy with high hardness. As material for all current bridges described below, for example, CuZn 30 F44 DIN 17670 can be used. This base material may additionally be pre-tinned, ie before bending in the in the 1A to 2 B illustrated form or be provided prior to punching the blanks with a tin surface layer.

In the 1A shown current bridge is generally with 10 denotes and includes a first plurality of single spring contacts 12 , in turn, a stop leg 14 and a spring leg 16 have. stop leg 14 and spring legs 16 are integrally formed with each other, wherein the spring leg 16 based on the position of the main planes by 90 ° relative to the stop leg 14 is bent. This is best done by comparing the 1A and 1B or from the perspective views of 2A and 2 B clear.

The spring leg 16 is shaped so that it either with low elastic bias on the stop leg 14 abuts or but up to a small distance from the stop leg 14 extends.

Several juxtaposed first single spring contacts 12 are on a manifold 18 arranged and integral with the manifold 18 designed. It has the manifold 18 a first face 20 that the first single spring contacts 12 facing, as well as a second end facing away from these 22 ,

At the second end 22 is an approach 24 , For example, a crimp neck, provided, which is designed so that lines, preferably with a cable cross-section between 4 mm ² and 10 mm ² , can be fixed. In this way, the current bridge according to the invention without a modification of the geometry of the integral with the distribution bar 18 intended approach 24 be used for cables with different cross sections.

The first single spring contacts 12 are each from the first front page 20 of the distribution bar 18 arranged starting and at a distance A on the manifold 18 appropriate. If you lead the in 1A and 1B illustrated current bridge 10 on the blank, in the 3 is shown, after punching the basic geometry back, so is located between the in 1B visible side edge 30 of the spring leg 16 and the in 1A visible side edge 32 the stop thigh 14 only a very narrow distance, which is of the order of the material thickness d (compare also 3 ). The material thickness d is about 0.8 mm, so that when punching the flat stamped part of sheet metal material of a width of about 0.8 mm between the edges 30 and 32 is punched out.

As from the illustration in 1B it can be seen, also has the stop leg 14 several bends up. In this case, the stop leg 14 first on a first step 34 raised about the amount of material thickness d above the starting plane of the stop leg 14 in the transition to the manifold 18 lies. In another bend to a second stage 36 becomes the stop leg 14 again in a further increased distance to the original connection level on the manifold 18 brought. Through this second stage 36 is achieved that by 90 ° relative to the stop leg 14 curved spring legs 16 approximately in the middle of the stop leg 14 meets.

As representative measures for in 1A and 1B shown current bridge can be realized in addition to the above-mentioned sizes of d = 0.8 mm and A = 6.5 +/- 0.5 mm, the following dimensions:
C = 12.5 +/- 0.5 mm
w = 2.25 mm

Both the material selection and the specified geometry are coordinated so that just the required heat conduction is ensured, but at the same time the first single spring contacts 12 each at the first end face 20 of the distribution bar 18 can be arranged side by side.

The first single spring contacts 12 lie essentially in the XY plane passing through the manifold 18 is defined.

In addition to the first single spring contacts 12 is a second plurality of single spring contacts 12 ' via a U-shaped bent connecting plate 23 integral with the second end face 22 connected. The second single spring contacts 12 ' can be the first single spring contacts 12 correspond. Same or similar sections and elements of the second single spring contacts 12 ' are with the "'" provided reference characters of the first single spring contacts 12 designated.

In the present embodiment, the first and second single spring contacts 12 . 12 ' in the same direction. However, the second single spring contacts 12 ' about an axis of the contact extension direction by 90 ° with respect to the first single spring contacts 12 turned. The dimensions and the design of the second single spring contacts 12 ' can those of the first single spring contacts 12 but they can also correspond to other recipient structures.

The second single spring contacts 12 ' lie in an XY plane leading to the plane of the first single spring contacts 12 approximately parallel and shifted in the Z direction.

In addition to the second single spring contacts 12 ' Further contacts and / or contact groups may be formed, which are like the second single spring contacts 12 ' for example, offset in the Z direction. However, a parallel extension direction of different contact groups is not necessary, but can simplify the insertion or attachment of the current bridge.

Claims (14)

Electricity bridge comprising a distributor bar ( 18 ), which has a first face ( 20 ) and a second end face ( 22 ), and a first plurality of single spring contacts ( 12 ) each with a stop leg ( 14 ) and a spring leg ( 16 ) integral with the first end face ( 20 ) of the distribution bar ( 18 ), wherein the first single spring contacts ( 12 ) substantially in the plane of the distributor bar ( 18 ), characterized in that the current bridge further comprises a second plurality of contacts ( 12 ' ) which is connected to the distributor bar ( 18 ) and lie in a plane that differs from the plane of the distribution bar. A current bridge according to claim 1, characterized in that the second plurality of contacts ( 12 ' ) Single spring contacts, each with a stop leg ( 14 ' ) and a spring leg ( 16 ' ) which is integral with the second end face ( 22 ) of the distribution bar ( 18 ) are connected. Current bridge according to claim 1 or 2, characterized in that the second single spring contacts ( 12 ' ) with the first plurality of single spring contacts ( 12 ) facing away from the second end face ( 22 ) of the distribution bar ( 18 ) in one piece with a connecting plate ( 23 ) are U-shaped in the direction of the first single spring contacts ( 12 ), the first single spring contacts ( 12 ) in a plane parallel to the plane of the second single spring contacts ( 12 ' ) lie. Current bridge according to one of the preceding claims, characterized in that the first plurality of individual spring contacts thirteen single spring contacts ( 12 ) and the second plurality of individual spring contacts three single spring contacts ( 12 ' ) around summarizes. Current bridge according to one of the preceding claims, characterized in that a plurality of first individual spring contacts arranged next to each other ( 12 ) at a distance of 6 mm to 7 mm, preferably 6.5 mm, at the distributor bar ( 18 ) are arranged. current bridge according to one of the preceding claims, characterized that the electricity bridge has a geometry based on a flat punched metal sheet can be traced back. A current bridge according to claim 6, characterized in that in the flat stamped part slots between adjacent single spring contacts ( 12 . 12 ' ) whose width substantially corresponds to the thickness of the metal sheet. Current bridge according to one of the preceding claims, characterized in that the stop leg ( 14 . 14 ' ) and the outgoing from the stop leg spring legs ( 16 . 16 ' ) of the individual spring contacts ( 12 . 12 ' ) are each integrally connected to each other, and between the stop leg ( 14 . 14 ' ) and the spring leg ( 16 . 16 ' ) The metal sheet has a bend of about 90 °. Current bridge according to one of the preceding claims, characterized in that the stop leg ( 14 . 14 ' ) and the spring leg ( 16 . 16 ' ) of the individual spring contacts ( 12 . 12 ' ) are each arranged relative to one another such that the main surfaces of the stop limbs ( 14 . 14 ' ) and spring legs ( 16 . 16 ' ) are substantially perpendicular to each other. Current bridge according to one of the preceding claims, characterized in that the stop limbs ( 14 . 14 ' ) in the substantially to the first end face ( 20 ) of the distribution bar ( 18 ) longitudinal direction of elongation a plurality of bends having different stages in the longitudinal direction of the stop legs ( 14 . 14 ' ) produce. current bridge according to one of the preceding claims, further comprising fastening means for Fixing the current bridge in a housing. current bridge according to one of the preceding claims, further comprising connecting means for Connecting the busbar to a line. Method for producing a current bridge according to one of the preceding claims, comprising the steps of: punching a current bridge blank from a metal sheet, on which the finished current bridge can be returned, bending the contacts of the second plurality of contacts 12 ' ), so that they form a plane extending from the plane of the distribution bar ( 18 ) is different. The method of claim 14, further comprising the step of: - bending the spring legs ( 16 . 16 ' ), so that the stop leg ( 14 . 14 ' ) and the spring leg ( 16 . 16 ' ) of the individual spring contacts ( 12 . 12 ' ) are each arranged relative to one another such that the main surfaces of the stop limbs ( 14 . 14 ' ) and spring legs ( 16 . 16 ' ) are substantially perpendicular to each other.